DE10012363A1 - Electronic transformer - Google Patents

Abstract

The invention relates to an electronic transformer for operating at least one low-volt halogen lamp (L). The inventive transformer contains an inverse rectifier (3) having two switches (V1, V2) that can be switched-on and off for providing an alternating output voltage. Said transformer also comprises a control circuit (uC) for controlling the switching-on and switching-off behaviour of the two switches (V1, V2) pertaining to the inverse rectifier. Said electronic transformer further comprises a transformer (4, Tp, Ts1, Ts2) which is connected to the inverse rectifier (3) on the input side. A load circuit that is provided with the at least one low-voltage halogen lamp (L) is connected to the output side of said transformer (4, Tp, Ts1, Ts2). The aim of the invention is to dim the low-volt halogen lamp (L). The pulse duty factor for the two switches (V1, V2) is changed by means of the dead time (ttot) remaining constant between the opening of one of the two switches (V1) and subsequently closing the remaining switch (V2) and by reducing the make-time (tein) respectively. Silent dimming is thus made possible.

Description

The present invention relates to an electronic transformer for operation at least one low-voltage halogen lamp according to the preamble of claim 1.

The basic principle of such electronic transformers is from CH Sturm / E. Klein "Operating devices and circuits for electric lamps", Siemens Aktiengesellschaft, 1992, pages 295 ff known. Their general structure and the mode of operation is shown in FIG. 3. First of all, the electronic transformer has a harmonic filter 1 for radio interference suppression, which is connected on the input side to an AC voltage source, which in the present example emits an AC supply voltage with a frequency of 50 Hz. A rectifier circuit 2 is connected to the harmonic filter 1 , for example a simple diode circuit, which rectifies the AC supply voltage. The rectified intermediate circuit voltage generated by the rectifier circuit 2 is finally fed to an inverter 3 , which usually has two switches arranged in a half-bridge circuit - for example, power transistors - which are alternately switched on and off according to a certain scheme, so that one is in rectangular blocks results in chopped voltage that is modulated with the rectified mains voltage. The AC voltage generated in this way is transferred by means of a transformer 4 to an output-side load circuit and is thereby transformed to a low voltage necessary for the low-voltage halogen lamp L arranged in the load circuit. Furthermore, there is a further circuit 5 for rectification and a filter 6 for smoothing the transmitted AC voltage in the load circuit.

In addition to its basic function - the voltage supplied by the supply network to one to implement suitable low voltage for the low-voltage halogen lamp - offer electronic transformers also the ability to operate the lamp dimmed. The most common method for dimming is the so-called leading edge or phase control, in which the two switches of the inverter according to the desired degree of dimming during a half-wave of rectified AC supply voltage only for a certain period of time be clocked. With this so-called internal dimming of electronic transformers can, however, be high due to the leading edge or leading edge Voltage jumps occur, which in turn - since they are one of the supply AC voltage corresponding frequency - to clearly audible noise being able to lead.  

It is therefore an object of the present invention to provide an electronic transformer to operate at least one low-voltage halogen lamp, in which a silent dimming of the lamp is made possible.

This object is achieved by an electronic transformer according to claim 1 or by a method for operating a low-voltage halogen lamp according to claim 5 solved. According to the invention, the dimming takes place in that the duty cycle for the two switches of the inverter is changed by the dead time between the Open one of the two switches and then close the other switch remains constant and the switch-on time is shortened in each case. With this procedure, at which the two switches of the inverter are continuously clocked, the high occurring in a leading edge or trailing edge control Voltage jumps can be avoided. Only the switching frequencies for the two Switches are changed so that there is a sets the reduced effective voltage corresponding to the desired dimming level.

In comparison to the other dimming methods in the invention Procedure for dimming the switching frequencies by reducing the switch-on times the switch increases so that there is the possibility of the half-bridge switch to operate in a frequency range regardless of the degree of dimming is above the human hearing limit and therefore no noise pollution leads. The two switches are preferably in a frequency range between 35 kHz - for the undimmed state - and 300 kHz - for maximum dimming - operated. Furthermore, the switches are preferably controlled such that you Duty cycle is the same.

Keeping the dead time constant also opens up the possibility of the two switches to control the inverter so that it is independent of the set Dimming level, switch at a time when there is no voltage on them is present. This corresponds to the so-called zero point switch or zero voltage switch, in which Switching losses can be avoided. Thus, by the present invention specified electronic transformer for operating a low-voltage halogen lamp, which on the one hand has a high efficiency and on the other hand is silent Allows dimming of the lamp.

The invention will be explained in more detail below with reference to the accompanying drawings become. Show it:  

Figure 1 shows the inverter, transformer and load circuit of the electronic transformer according to the invention.

Fig. 2 Betakten of the two switches according to the invention the inverter; and

Fig. 3 shows the general structure of an electronic transformer, as is known from the prior art.

The AC supply voltage rectified by the rectifier (not shown) is applied to the input of the inverter shown in FIG. 1. The two switches V1 and V2, which are field-effect transistors and are arranged in a half-bridge arrangement, are driven by a half-bridge driver HB, which in turn is controlled by a control circuit uC in the form of a microprocessor. The two switches V1 and V2 are alternately switched on and off, so that a rectangular voltage occurs at the connection point between the two half-bridge capacitors C2 and C3, which are connected in parallel with the two field-effect transistors V1 and V2, with the rectified and semi-sinusoidal intermediate circuit voltage is modulated. This alternating voltage is transmitted to the load circuit through the primary winding Tp of a transformer which is arranged between the connection points of the two switches V1 and V2 and the two intermediate circuit capacitors C2 and C3. An LC element formed from the coil L1 and the capacitor C1 ensures that harmonics are suppressed.

There are two secondary windings Ts1 and Ts2 of the transformer in the load circuit, the low-voltage halogen lamp L is connected to their common node. Alternatively, a single secondary winding with a center tap can also be used be provided. Between the secondary windings Ts1 and Ts2 and the low voltage Halogen lamp L is a through a coil L2 and a capacitor C4 formed and acting as a low-pass LC element for smoothing the high-frequency AC voltage. Furthermore, the load circuit has two diodes D1 and D2, which are in the form a two-way rectifier are arranged around which the low-voltage halogen lamp L rectify supplied AC voltage.

The activation of the two half-bridge switches V1 and V2 according to the invention will be explained in more detail below with reference to FIG. 2, which shows the switching states of the two switches for two different dimming levels. The upper clock diagram in FIG. 2 shows the switching states of the two half-bridge switches in the undimmed state - in a solid line for the switch V1 and in a broken line for the switch V2 - while the lower clock diagram shows the switching states in a dimmed state.

As already explained, the two switches are controlled in such a way that they are alternately switched on (state I) and switched off (state 0), a certain dead time t _dead remaining between the opening of a switch and the subsequent closing of the other switch, in which both switches are open. This dead time ensures, among other things, that no short circuit can occur due to the simultaneous closing of both switches of the half-bridge. Furthermore, however, it can also be achieved that the two switches turn on losslessly at a point in time at which no voltage is applied to them, since it takes a certain time for around the reactances contained in the circuit for the voltage ratios to reverse. Such lossless switching is also referred to as "zero switching loss" or "zero voltage switch" and can lead to a significant increase in efficiency.

The duty ratio for the two switches is determined by the ratio between the on time t _and the off time t _off is determined. The highest possible duty cycle is selected for the above undimmed state shown, which preferably corresponds to a switching frequency f of approximately 35 kHz, the same duty cycle being set for the two switches.

According to the invention, the dimming the low-voltage halogen lamp is characterized in that the duration of the dead time t _tot is retained and only the on-time t _a is reduced for both switches alike. As a result, the switching frequency f is increased overall, as can be seen in the lower clock diagram in FIG. 2. For example, if an output-side voltage of effectively 12 volts is reached at a frequency of 35 kHz in the undimmed state, increasing the switching frequency to 300 kHz can effectively reduce the output-side voltage by 4 volts, thereby reducing the low-voltage halogen lamp to approx. 1 % of their maximum light output is set. In general, by increasing the base frequency, that is, the frequency present in undimmed operation, by a factor of 7 to 12, essentially the entire dimming range for the low-voltage halogen lamp can be covered.

In contrast to the previously known methods, the switching frequency is increased again by dimming, so that it is shifted into a frequency range that is far from the human hearing limit. Since the 35 kHz in the undimmed state are already in the ultrasound range and are therefore generally not perceptible, simple and effective dimming that does not result in noise pollution is achieved in this way. However, since the dead time t _{tot is still} kept constant, zero switching for the two half-bridge switches can also be achieved in the dimmed state, so that the electronic transformer according to the invention has an extraordinarily high efficiency.

Claims (10)

1. Electronic transformer for operating at least one low-voltage halogen lamp (L),
with an inverter ( 3 ) with two switches (V1, V2) that can be switched on and off to provide an AC output voltage,
with a control circuit (uC) for controlling the switching on and off behavior of the two switches (V1, V2) of the inverter, and
with a transformer (4, Tp, Ts1, Ts2) which is connected on the input side to the inverter ( 3 ) and to the output side of which is connected a load circuit which has at least one low-voltage halogen lamp (L),
characterized by
that the control circuit (uC) for dimming the at least one low-voltage halogen lamp (L) changes the pulse duty factor for both switches (V1, V2),
that the dead time (t _tot) between the opening of one of the two switches (V1) and the subsequent closing of the other switch (V2) remains constant and the on-time (t _on) in each case is shortened. 2. Electronic transformer according to claim 1, characterized, that the switching frequencies of the two switches (V1, V2) regardless of the degree of Dimming are above the human hearing limit. 3. Electronic transformer according to claim 2, characterized, that the switching frequency of the two switches (V1, V2) at maximum dimming approximately Is 10 times the switching frequency in undimmed operation. 4. Electronic transformer according to claim 3, characterized, that the switching frequencies of the two switches (V1, V2) between 35 kHz and 300 kHz lie. 5. Electronic transformer according to one of the preceding claims, characterized, that the duty cycle is the same for both switches (V1, V2). 6. Method for operating at least one low-voltage halogen lamp (L) by means of an electronic transformer
an inverter ( 3 ) with two switches (V1, V2) that can be switched on and off to provide an AC output voltage,
a control circuit (uC) for controlling the switching on and off behavior of the two switches (V1, V2) of the inverter, and
a transformer (4, Tp, Ts1, Ts2), which is connected on the input side to the inverter ( 3 ) and to which a load circuit having at least one low-voltage halogen lamp (L) is connected on the output side,
characterized,
that for dimming the at least one low-voltage halogen lamp (L) the pulse duty factor for both switches (V1, V2) is changed in that the dead time (t _tot ) between the opening of one of the two switches (V1) and the subsequent closing of the other switch (V2) remains constant and the on-time (t _on) in each case is shortened. 7. The method according to claim 6, characterized, that the switching frequencies of the two switches (V1, V2) regardless of the degree of Dimming are above the human hearing limit. 8. The method according to claim 6 or 7, characterized, that the switching frequency of the two switches (V1, V2) at maximum dimming approximately Is 10 times the switching frequency in undimmed operation. 9. The method according to claim 8, characterized, that the switching frequencies of the two switches (V1, V2) between 35 kHz and 300 kHz lie. 10. The method according to any one of claims 5 to 9, characterized, that the duty cycle is the same for both switches (V1, V2).